FLT3／FLK2：酪氨酸激酶受体家族新成员

属于Ⅲ类酪氨酸激酶受体家族成员的ＦＬＴ３／ＦＬＫ２已分别在人和小鼠得到克隆和表达。该受体在造血早期干祖细胞上表达较丰富，在其他组织也见有表达。小鼠ＦＬＴ３／ＦＬＫ２ｃＤＮＡ长３４５３ｂｐ，编码９９０ａａ的多肽。人与小鼠ＦＬＴ３／ＦＬＫ２的蛋白质序列有８６％同源。     

Axl受体酪氨酸激酶家簇的研究进展

Ａｘｌ家族是一个比较新的受体酪氨酸激酶家族,成员包括Ａｘｌ、Ｍｅｒ及Ｒｓｅ等几个分子、结构很特征;胞浆区与神经细胞粘附分子结构相似,胞膜外区具备酪氨酸激酶活性,这类分子在一此正常组织,恶变组织中都有表达,研究发现它们在组织的成长,发育及恶变中都有一定作用。     

二聚化:受体酪氨酸激酶活化的重要机制

受体酪氨酸激酶家族是一类具有内源性蛋白酪氨酸激酶活性的生长因子受体。它们具有相似的分子结构 ,其配体介导的受体活化主要是通过二聚化的机制来实现的。配体介导同源或异源的受体二聚化 ,不同的配体以不同的机制介导受体的二聚化。本文介绍了受体酪氨酸激酶家族不同亚类受体在其配体介导下二聚化的机制 ,并着重介绍了表皮生长因子受体家族各成员间的异二聚化及其引起的胞内信号转导途径的多样化     

酪氨酸激酶受体Eph亚族的研究进展

酪氨酸激酶受体（RTK）参与细胞生长、分化、胚胎发育及细胞内信号传递等过程,具有相当重要的生理功能.目前已发现50多种RTK基因分属于14种亚族,Eph亚族是其中最大的家族,由14个基因组成,一些基因主要在脑的发育中表达,另一些则在各种组织中广泛表达.最近该亚族胞外配体的发现为深入研究其生理功能打下基础.综述了Eph亚族成员的来源、表达及其配体的研究概况.     

G蛋白偶联受体转激活酪氨酸激酶受体机制

G蛋白偶联受体(G-protien coupled receptors,GPCRs)和酪氨酸激酶受体(receptor tyrosine kinases,RTKs)是体内两类重要的受体家族,介导着绝大多数信号事件。GPCRs能够"绑架"RTKs进行信号转导,即GPCRs能够在没有外加RTKs配体的情况下激活RTKs,这种现象称为转激活。作为转激活的核心过程,GPCR调控RTK磷酸化主要采取RTK配体依赖模式和非RTK配体依赖模式。不同的G蛋白亚型、酪氨酸磷酸激酶、酪氨酸磷酸酶(protein-tyrosine phosphatases,PTPs)以及活性氧自由基(reactiveoxygen species,ROS)均在此过程中具有重要作用。GPCR和RTK还能形成信号复合体(signaling complex)从而实现蛋白质之间的动态相互作用。对转激活的研究为GPCR靶点药物开发提供了新思路。     

受体型酪氨酸激酶ErbB受体亚族研究进展

ErbB受体亚族属于受体型酪氨酸激酶(RTK)超家族中的I亚族,对于胚胎发育是必需的,并与腺体肿瘤的癌变有关。ErbB受体亚族有4个成员,它们在上皮和神经等组织内表达。本综述了ErbB受体亚族的研究概况,以及ErbB受体介导的信号转导机制及其在癌变中的作用机理等研究进展。     

二聚化：受体酶氨酸激酶活化的重要机制

受体酪氨酸激酶家族是一类具有内源性蛋白酪氨酸激酶活性的生长因子受体。它们具有相似的分子结构,其配体介导的受体活化主要是通过二聚化的机制来实现的。配体介导同源或异源的受体二聚化,不同的配体以不同的机制介导受体的二聚化。本文介绍了受体酪氨酸激酶家族不同亚类受体在其配体介导下二聚化的机制,并着重介绍了表皮生长因子受体家族各成员间的异二聚化及其引起的胞内信号转导途径的多样化。     

非受体酪氨酸激酶ARG与过氧化氢酶相互作用机制的初步研究

通过体外结合实验,发现Arg蛋白与过氧化氢酶之间有相互作用,且这种作用是通过Arg蛋白的SH3结构域和过氧化氢酶的P290FNP介导的。利用体外激酶分析和Western印迹证明Arg蛋白可以使过氧化氢酶磷酸化。本研究为过氧化氢酶的活性调控研究奠定了基础。     

血管内皮生长因子受体1酪氨酸激酶的克隆、表达和功能

血管内皮生长因子受体 1(Flt 1)在血管生成过程中起着重要的作用。Flt 1胞内域的酪氨酸激酶直接参与了VEGF与Flt 1结合后的胞内信号转导途径。在原核系统中表达得到具有酶活性的Flt 1酪氨酸激酶融合蛋白 ,并进行了初步的性质研究。利用逆转录PCR技术从人肝癌组织总RNA中得到Flt 1酪氨酸激酶区的cDNA ,将其克隆到表达载体质粒 pGEX KG中 ,并在大肠杆菌BL2 1(DE3) pLysS中表达、纯化 ,得到可溶的Flt 1酪氨酸激酶融合蛋白 (GST F)。虽然GST F不包含目前已知的磷酸化位点 ,但研究表明GST F能够进行自磷酸化反应 ,并且其活性需要镁离子或锰离子的参与。同时发现GST F能够磷酸化合成底物 polyE4Y ,而不能作用于MBP和Src相关肽。底物磷酸化时最适的镁离子和锰离子浓度分别为 15mmol/L和 0 .5mmol/L。GST F为寻找抗肿瘤药物提供了一个有效工具     

转化淋巴细胞胰岛素受体酪氨酸蛋白激酶活性及细胞内源性底物的研究

本文对增殖期的淋巴细胞胰岛素依赖性酪氨酸蛋白激酶活性及内源性废物进行了分析研究。在纯化的健康人淋巴细胞中加入适量的植物血凝素(PHA),经过72h培养即成为转化淋巴细胞(增殖期淋巴细胞)。应用~(32)P参入实验,证实转化淋巴细胞胰岛素受体具有胰岛素依赖性的酪氨酸蛋白激酶活性,与未转化的对照组相比其活性增加约9倍。Scatchard分析表明转化后淋巴细胞膜表面胰岛素受体数增加3.5倍。应用抗酪氨酸磷酸酯抗体,对胰岛素作用前后的转化与未转化淋巴细胞内,酪氨酸残基磷酸化的蛋白进行了鉴定,结果表明:除了95kD受体β亚基自身磷酸化外,45kD蛋白质也明显磷酸化,我们命名它为PP45。我们认为PP45可能是淋巴细胞中胰岛素受体酪氨酸蛋白激酶的主要内源性废物,它的磷酸化是胰岛素信息传递过程级联反应的初始步骤。     

High-Throughput Selection of Transmembrane Sequences That Enhance Receptor Tyrosine Kinase Activation

Dimerization is a critical requirement for the activation of the intracellular kinase domains of receptor tyrosine kinases (RTKs). The single transmembrane (TM) helices of RTKs contribute to dimerization, but the details are not well understood. Work with TM helices in various model systems has revealed a small number of specific dimerization sequence motifs, and it has been suggested that RTK dimerization is modulated by such motifs. Yet questions remain about the universality of these sequence motifs for RTK dimerization and about how TM domain dimerization in model systems relates to RTK activation in mammalian membranes. To investigate these questions, we designed a 3888-member combinatorial peptide library based on the TM domain of Neu (ErbB2) as a model RTK. The library contains many closely related, Neu-like sequences, including thousands of sequences with known dimerization motifs. We used an SDS-PAGE-based screen to select peptides that dimerize better than the native Neu sequence, and we assayed the activation of chimeric Neu receptors in mammalian cells with TM sequences selected in the screen. Despite the very high abundance of known dimerization motifs in the library, only a very few dimerizing sequences were identified by SDS-PAGE. About half of those sequences activated the Neu kinase significantly more than did the wild-type TM sequence. This work furthers our knowledge about the requirements for membrane protein interactions and the requirements for RTK activation in cells.     

ErbB2受体酪氨酸激酶激酶区的表达与纯化

以GFP融合表达的形式在毕赤酵母中表达具有生物活性的受体酪氨酸激酶ErbB2的激酶区.构建受体酪氨酸激酶激酶区与GFP的融合表达载体pPIC3.5K,转化毕赤酵母GS115,通过组氨酸营养缺陷型筛选,G418高拷贝菌株筛选,以及摇瓶诱导表达筛选,选取较高水平表达菌株进行5升罐培养,以镍亲和层析手段纯化得到蛋白表达产物,进行SDS-PAGE分析和酶联免疫反应检测酶活.结果表明在毕赤酵母中成功诱导表达了约100kD的激酶融合蛋白并具有激酶活性.该研究为筛选ErbB2的抑制剂奠定了基础.     

PI3-Kinase Is Involved in Mitogenic Signaling by the Oncogenic Receptor Tyrosine Kinase Xiphophorus Melanoma Receptor Kinase in Fish Melanoma

Overexpression of the mutationally activated receptor tyrosine kinase Xiphophorus melanoma receptor kinase (Xmrk) initiates formation of hereditary malignant melanoma in the fish Xiphophorus. In melanoma as well as in a melanoma-derived cell line (PSM) this receptor is highly activated resulting in constitutive Xmrk-mediated mitogenic signaling. In order to analyze mitogenic signaling triggered by Xmrk a possible involvement of phosphatidylinositol 3 (PI3)-kinase in Xmrk signal transduction was examined. Constitutive binding of the p85 adapter subunit of PI3-kinase to the Xmrk receptor was detected in PSM melanoma cells. Further analyses in BHK cells expressing a Xmrk chimera (HER-mrk) showed that p85 association with the intracellular part of Xmrk was dependent on autophosphorylation of the receptor. In vitro binding studies revealed that the interaction is mediated mainly through the N-terminal SH2 domain of p85 which directly binds to a sequence motif around phosphorylated Tyr-983 in the Xmrk carboxy-terminus. In accordance with recruitment of p85 by Xmrk in PSM cells, the PI3-kinase downstream target Akt was found to be highly phosphorylated on Ser-473, indicating efficient PI3-kinase signaling in melanoma cells. PI3-kinase activation was also detected in Xiphophorus melanoma. Moreover, malignant melanomas exhibited an increased level of PI3-kinase activity which was about three times higher than that in benign pigmented lesions. Inhibition of PI3-kinase activity in PSM melanoma cells by both Wortmannin and LY294002 blocked entry into S-phase. Together these data demonstrate that PI3-kinase is a substrate of the oncogenic Xmrk receptor and plays a significant role in mitogenic signaling of melanoma cells and the formation of malignant melanoma in Xiphophorus.     

A Tyrosine Phosphorylation Cycle Regulates Fungal Activation of a Plant Receptor Ser/Thr Kinase

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Studies of Receptor Tyrosine Kinase Transmembrane Domain Interactions: The EmEx-FRET Method

The energetics of transmembrane (TM) helix dimerization in membranes and the thermodynamic principles behind receptor tyrosine kinase (RTK) TM domain interactions during signal transduction can be studied using Förster resonance energy transfer (FRET). For instance, FRET studies have yielded the stabilities of wild-type fibroblast growth factor receptor 3 (FGFR3) TM domains and two FGFR3 pathogenic mutants, Ala391Glu and Gly380Arg, in the native bilayer environment. To further our understanding of the molecular mechanisms of deregulated FGFR3 signaling underlying different pathologies, we determined the effect of the Gly382Asp FGFR3 mutation, identified in a multiple myeloma cell line, on the energetics of FGFR3 TM domain dimerization. We measured dimerization energetics using a novel FRET acquisition and processing method, termed “emission-excitation FRET (EmEx-FRET),” which improves the precision of thermodynamic measurements of TM helix association. The EmEx-FRET method, verified here by analyzing previously published data for wild-type FGFR3 TM domain, should have broad utility in studies of protein interactions, particularly in cases when the concentrations of fluorophore-tagged molecules cannot be controlled.     

Polymorphism in the Immunoglobulin-like Domains of the Receptor Tyrosine Kinase from the Sponge Geodia Cydonium

Sponges [Porifera] are the phylogenetically oldest phylum of the Metazoa. They are provided with both cellular and humoral allorecognition systems. The underlying molecules are not yet known. To study allorecognition in sponges we first determined the frequency of graft rejection in a natural population of the marine sponge Geodia cvdonium. We then determined, for the first time at the molecular level, the degree of sequence polymorphism in segments of one molecule which may be related to sponge allorecognition and host defense: the Ig-like domains from the receptor tyrosine kinase [RTK]. Thirty six pairs of auto- and allografts were assayed, either by parabiotic attachment or insertion of grafts. All of the autografts fused, while only two allografts fused and 34 pairs were incompatibile. Rejection among the parabiotic allografts was characterized by the formation of a collagenous barrier, while the allografts that were inserted into the host underwent destruction. At the molecular level we first cloned to completion the 5′-end of sponge RTK, which displays a Pro-Ser-Thr-rich sequence; this is thought to act as a module of cell adhesion proteins. Then we analyzed RT-PCR products of amplification across the two Ig-like domains of RTK (about 500 bp), from two pairs of fusing sponges and one pair of rejecting sponges. High levels of polymorphism were recorded, including 18 nucleotide-substitution positions and a tri-nucleotide deletion, which translate into 13 polymorphic amino acid positions. Two of the six sponges were scored as heterozygotes. Among 9 informative polymorphic sites that were tested for linkage disequilibrium, 11 pairwise comparisons were found to be significant, implying the possibility of distinguishable alleles in this locus. To the best of our knowledge this is the first report of polymorphism in Ig-like domains of a receptor from invertebrates that may be associated with allorecognition. This data attests also that fusion in sponges is not confined to genetically identical individuals.     

Polymorphism in the Immunoglobulin-like Domains of the Receptor Tyrosine Kinase from the Sponge Geodia Cydonium

Sponges [Porifera] are the phylogenetically oldest phylum of the Metazoa. They are provided with both cellular and humoral allorecognition systems. The underlying molecules are not yet known. To study allorecognition in sponges we first determined the frequency of graft rejection in a natural population of the marine sponge Geodia cvdonium. We then determined, for the first time at the molecular level, the degree of sequence polymorphism in segments of one molecule which may be related to sponge allorecognition and host defense: the Ig-like domains from the receptor tyrosine kinase [RTK]. Thirty six pairs of auto- and allografts were assayed, either by parabiotic attachment or insertion of grafts. All of the autografts fused, while only two allografts fused and 34 pairs were incompatibile. Rejection among the parabiotic allografts was characterized by the formation of a collagenous barrier, while the allografts that were inserted into the host underwent destruction. At the molecular level we first cloned to completion the 5'-end of sponge RTK, which displays a Pro-Ser-Thr-rich sequence; this is thought to act as a module of cell adhesion proteins. Then we analyzed RT-PCR products of amplification across the two Ig-like domains of RTK (about 500 bp), from two pairs of fusing sponges and one pair of rejecting sponges. High levels of polymorphism were recorded, including 18 nucleotide-substitution positions and a tri-nucleotide deletion, which translate into 13 polymorphic amino acid positions. Two of the six sponges were scored as heterozygotes. Among 9 informative polymorphic sites that were tested for linkage disequilibrium, 11 pairwise comparisons were found to be significant, implying the possibility of distinguishable alleles in this locus. To the best of our knowledge this is the first report of polymorphism in Ig-like domains of a receptor from invertebrates that may be associated with allorecognition. This data attests also that fusion in sponges is not confined to genetically identical individuals.